CN217793037U - Noninvasive cardiac output monitoring equipment - Google Patents

Abstract

The utility model discloses a noninvasive heart discharge monitoring equipment, which relates to the technical field of medical monitoring equipment, and comprises a mobile trolley, a data acquisition box, a lead wire, a belt and an electrode plate, wherein the mobile trolley is provided with a Bluetooth and a wireless data receiving module, the data acquisition box is provided with a Bluetooth and a wireless data transmission module, the Bluetooth and the wireless data receiving module on the mobile trolley are matched with the Bluetooth and the wireless data transmission module on the data acquisition box, and one end of the lead wire is fixed with the data acquisition box; the utility model divides the non-invasive heart discharge monitoring device into a plurality of simple and compact structures through the arrangement of the mobile trolley, the data acquisition box, the lead wire, the belt and the electrode slice, thereby greatly reducing the occupied area of the non-invasive heart discharge monitoring device; and the data transmission mode is changed into remote wireless data transmission, so that medical personnel can know the hemodynamic data of the patient through the mobile trolley conveniently, and the medical personnel can use the mobile trolley conveniently.

Description

Noninvasive cardiac output monitoring equipment

Technical Field

The utility model belongs to the technical field of medical monitoring equipment, especially, relate to a there is not heart discharge capacity monitoring facilities of wound.

Background

Noninvasive cardiac output (called Impedance Cardiography, ICG for short) is a non-invasive measurement method for obtaining hemodynamic data by measuring blood flow; during detection, the monitoring equipment detects related electric signals through the electrode plates and transmits the electric signals to the heart discharge capacity monitoring equipment through the current conducting wire. The method for non-invasive cardiac output blood flow data testing greatly reduces troubles brought by the traditional invasive measuring mode, and can continuously and quickly provide hemodynamic data for clinical diagnosis. Because the risk of wound infection is avoided, the pain of a patient can be reduced, the method is simple and easy to use, and an operator does not need the advantages of very professional knowledge, so that the ICG becomes an ideal method for acquiring the hemodynamic data.

However, the existing noninvasive cardiac output monitoring equipment has a large structural space, and influences the use of the space in other nursing rooms such as a critical care unit; and the existing noninvasive cardiac output monitoring equipment needs to be placed in a close range with a patient to monitor hemodynamic data, so that inconvenience is brought to nursing staff to operate other monitoring equipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a non-invasive heart discharge capacity monitoring device, which solves the problems that the existing non-invasive heart discharge capacity monitoring device has larger structural space and influences the use of the space in other nursing rooms such as critical care units and the like; and current no wound heart discharge capacity monitoring facilities need be put with the patient closely and monitor the hemodynamic data, brings inconvenient problem for nursing staff to operate other guardianship equipment.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a there is not heart discharge capacity monitoring facilities of wound, including mobile trolley, data acquisition box, lead line, waistband and electrode slice, be provided with bluetooth and wireless data receiving module on the mobile trolley, be provided with bluetooth and wireless data transmission module on the data acquisition box, bluetooth and wireless data receiving module on the mobile trolley and the bluetooth and wireless data transmission module looks adaptation on the data acquisition box, it is fixed with the data acquisition box to lead line one end, it is fixed with the electrode slice to lead line one end, the waistband is used for fixing on the patient, be provided with the pocket bag on the waistband, the pocket bag of waistband is used for holding and fixed data acquisition box.

Further, the mobile trolley comprises a frame, a computer host, a display, a printer, a key input module and an inserting row, wherein the computer host, the display, the printer, the key input module and the inserting row are all fixed with the frame, the display and the key input module are located at the upper end of the mobile trolley, the computer host and the inserting row are located in the middle of the frame, the printer is located at the lower end of the frame, the computer host, the display, the printer and the key input module are electrically connected with each other, the inserting row is used for being connected with an external power supply and providing power for the computer host, the display, the printer and the key input module, and the Bluetooth and the wireless data receiving module are located in the computer host.

Further, the data acquisition box includes epitheca, lower cover, main control board, leaded light post, printing opacity membrane and battery pack, the main control board is fixed with the epitheca, the lateral wall is fixed with leaded light post and printing opacity membrane before the epitheca, the printing opacity membrane covers in the leaded light post outside, epitheca and lower cover joint cooperation, the main control board is located between epitheca and the lower cover and with the equal joint of epitheca and lower cover, main control board and leaded light post electric connection, the guide slot has been seted up jointly on the lateral wall of epitheca and lower cover looks homonymy, battery pack passes through the guide slot and cooperates with epitheca and lower cover joint, battery pack and main control board electric connection, bluetooth and wireless data transmission module are located the main control board.

Furthermore, a charging module and a data transmission interface are arranged on the frame, the data acquisition box is electrically connected with the charging module and the data transmission interface through lead wires respectively, the charging module is electrically connected with the power strip, the data transmission interface is electrically connected with the computer host, the charging module is used for inputting the data acquisition box through a power supply, and the data transmission interface is used for transmitting data into the computer host.

Further, battery pack includes battery case and battery cover, the inside battery group of pegging graft of battery case, the lateral wall of battery case one side inlays and is equipped with and leads electrical pillar, it is provided with two to lead electrical pillar, two lead electrical pillar respectively with the positive negative pole electric connection of battery group, battery cover and battery case upper end joint and closed battery case upper end opening.

Further, battery cover bottom surface joint has the shrouding, shrouding and battery case joint, still be provided with the slip latch fitting between battery cover and the shrouding, a slip latch fitting pot head is equipped with the spring, the one end that the slip latch fitting was kept away from to the spring supports tightly with the battery cover inner wall.

The utility model discloses following beneficial effect has:

1. the utility model divides the non-invasive heart discharge monitoring device into a plurality of simple and compact structures through the arrangement of the mobile trolley, the data acquisition box, the lead wire, the belt and the electrode slice, thereby greatly reducing the occupied area of the non-invasive heart discharge monitoring device; the data transmission mode is changed into remote wireless data transmission, so that medical personnel can know the hemodynamic data of a patient through the mobile trolley conveniently, and the medical personnel can use the mobile trolley conveniently;

2. the utility model discloses a lead the line and give the data acquisition box with human physiology signal of telecommunication transmission, after data acquisition box analysis processes, wireless transmission gives the computer again to show for medical personnel through the synthetic visual curve of software, help medical personnel to make exact judgement.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic diagram of the overall structure of a non-invasive cardiac output monitoring device;

FIG. 2 is a schematic view of a mobile trolley of a non-invasive heart rate monitoring device;

FIG. 3 is an exploded view of a data acquisition box of a non-invasive heart rate monitoring device;

FIG. 4 is an exploded view of a battery assembly of a non-invasive cardiac output monitoring apparatus;

FIG. 5 is a cross-sectional view of a battery assembly of a non-invasive cardiac displacement monitoring apparatus;

in the drawings, the components represented by the respective reference numerals are listed below:

1. moving the trolley; 2. a data acquisition box; 3. conducting wires; 4. a waistband; 5. an electrode sheet; 6. a frame; 7. a computer host; 8. a display; 9. a charging module; 10. a data transmission interface; 11. a printer; 12. a key input module; 13. a power strip; 14. an upper shell; 15. a lower cover; 16. a main control board; 17. a light guide pillar; 18. a light transmissive film; 19. a battery pack; 20. a battery case; 21. a battery pack; 22. closing plates; 23. a sliding lock; 24. a spring; 25. a battery cover; 26. and a conductive post.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Please refer to fig. 1-5, the utility model relates to a there is not heart discharge capacity monitoring facilities of wound, including mobile trolley 1, data acquisition box 2, lead line 3, waistband 4 and electrode slice 5, be provided with bluetooth and wireless data receiving module on the mobile trolley 1, be provided with bluetooth and wireless data transmission module on the data acquisition box 2, bluetooth and wireless data transmission module looks adaptation on mobile trolley 1 and the data acquisition box 2, 3 one end of lead line is fixed with electrode slice 5, waistband 4 is used for fixing on the patient, be provided with the pocket on waistband 4, the pocket of waistband 4 is used for holding and fixing data acquisition box 2.

The noninvasive cardiac output monitoring equipment is divided into a plurality of simple and compact structures through the arrangement of the mobile trolley 1, the data acquisition box 2, the lead wire 3, the waistband 4 and the electrode plate 5, so that the floor area of the noninvasive cardiac output monitoring equipment is greatly reduced; and change the data transmission mode into remote wireless data transmission to be convenient for medical personnel to know patient's blood dynamics data through mobile trolley 1, be convenient for medical personnel's use.

The mobile trolley 1 comprises a trolley frame 6, a computer host 7, a display 8, a printer 11, a key input module 12 and a socket 13, the computer host 7, the display 8, the printer 11, the key input module 12 and the socket 13 are all fixed with the trolley frame 6, the display 8 and the key input module 12 are located at the upper end of the mobile trolley 1, the computer host 7 and the socket 13 are located in the middle of the trolley frame 6, the printer 11 is located at the lower end of the trolley frame 6, the computer host 7, the display 8, the printer 11 and the key input module 12 are electrically connected with each other, the socket 13 is used for being connected with an external power supply and providing power for the computer host 7, the display 8, the printer 11 and the key input module 12, the key input module 12 is used for inputting data such as patient information, the printer 11 is used for printing data files required by medical personnel, and the Bluetooth and wireless data receiving module is located in the computer host 7.

The data acquisition box 2 comprises an upper shell 14, a lower cover 15, a main control board 16, a light guide pillar 17, a light transmission film 18 and a battery pack 19, the main control board 16 is fixed with the upper shell 14, the front side wall of the upper shell 14 is fixed with the light guide pillar 17 and the light transmission film 18, the light transmission film 18 covers the outer side of the light guide pillar 17, the upper shell 14 is in clamping fit with the lower cover 15, the main control board 16 is positioned between the upper shell 14 and the lower cover 15 and is clamped with the upper shell 14 and the lower cover 15, the main control board 16 is electrically connected with the light guide pillar 17, guide grooves are jointly formed in the side walls of the same sides of the upper shell 14 and the lower cover 15, the battery pack 19 is in clamping fit with the upper shell 14 and the lower cover 15 through the guide grooves, the battery pack 19 is electrically connected with the main control board 16, and the Bluetooth and the wireless data transmission module are positioned in the main control board 16.

The vehicle frame 6 is provided with a charging module 9 and a data transmission interface 10, the data acquisition box 2 is respectively electrically connected with the charging module 9 and the data transmission interface 10 through the lead wire 3, the charging module 9 is electrically connected with the power strip 13, the data transmission interface 10 is electrically connected with the computer host 7, the charging module 9 is used for inputting the data acquisition box 2 through a power supply, and the data transmission interface 10 is used for transmitting data to the computer host 7.

The battery assembly 19 includes a battery box 20 and a battery cover 25, the battery pack 21 is inserted into the battery box 20, two conductive posts 26 are embedded in the side wall of one side of the battery box 20, the two conductive posts 26 are respectively electrically connected with the positive electrode and the negative electrode of the battery pack 21, and the battery cover 25 is clamped with the upper end of the battery box 20 and closes the opening at the upper end of the battery box 20.

The battery cover 25 is clamped with a sealing plate 22 at the bottom, the sealing plate 22 is clamped with the battery box 20, a sliding locking piece 23 is further arranged between the battery cover 25 and the sealing plate 22, a spring 24 is sleeved at one end of the sliding locking piece 23, and one end of the spring 24, which is far away from the sliding locking piece 23, is abutted against the inner wall of the battery cover 25.

Through the setting of slip latch fitting 23 and spring 24, when needing to change group battery 21, medical personnel only need remove slip latch fitting 23 for slip latch fitting 23 extrudes spring 24, and the spring 24 contracts under the 23 extrusion of slip latch fitting, and makes battery cover 25 and battery case 20 break away from, thereby be convenient for medical personnel quick replacement group battery 21 in the battery case 20.

One specific application of this embodiment is: in the daily use process, medical personnel firstly need to fix the belt 4 on the body or the sickbed of a patient, place the data acquisition box 2 in a pocket of the belt 4 for fixation, then attach the electrode plate 5 on the human body, acquire required parameters through the electrode plate 5, transmit the parameters to a main control board 16 of the data acquisition box 2 through a lead wire 3, the main control board 16 analyzes and processes the acquired data, and finally transmit the analyzed and processed data to a Bluetooth and wireless data receiving module through a Bluetooth and wireless data transmission module, the Bluetooth and wireless data receiving module transmits the data to a computer host 7, the computer host 7 arranges the data and displays the data on a display 8 through a software synthesized visual curve, and the medical personnel know the condition of the patient through the blood dynamic data displayed on the display 8; the noninvasive cardiac output monitoring equipment is divided into a plurality of simple and compact structures, so that the floor area of the noninvasive cardiac output monitoring equipment is greatly reduced; and change the data transmission mode into remote wireless data transmission to be convenient for medical personnel to know patient's blood dynamics data through the display 8 of mobile trolley 1, be convenient for medical personnel's use.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides a do not have heart discharge capacity monitoring facilities, includes mobile trolley (1), data acquisition box (2), lead line (3), waistband (4) and electrode slice (5), its characterized in that: be provided with bluetooth and wireless data receiving module on mobile trolley (1), be provided with bluetooth and wireless data transmission module on data acquisition box (2), bluetooth and wireless data transmission module looks adaptation on bluetooth and the wireless data receiving module on mobile trolley (1) and data acquisition box (2), lead line (3) one end and fix with electrode slice (5), waistband (4) are used for fixing on the patient, be provided with the pocket on waistband (4), the pocket of waistband (4) is used for holding and fixed data acquisition box (2).

2. A non-invasive heart rate monitoring device according to claim 1, wherein the mobile trolley (1) comprises a frame (6), a mainframe (7), a display (8), a printer (11), a key input module (12) and a socket (13), the mainframe (7), the display (8), the printer (11), the key input module (12) and the socket (13) are all fixed with the frame (6), the display (8) and the key input module (12) are located at the upper end of the mobile trolley (1), the mainframe (7) and the socket (13) are located at the middle part of the frame (6), the printer (11) is located at the lower end of the frame (6), the mainframe (7), the display (8), the printer (11) and the key input module (12) are electrically connected to each other, the socket (13) is used for being connected with an external power supply and providing power for the mainframe (7), the display (8), the printer (11) and the key input module (12), and the bluetooth and the wireless data receiving module are located in the mainframe (7).

3. A non-invasive displacement monitoring device according to claim 1, wherein the data collection box (2) comprises an upper casing (14), a lower cover (15), a main control board (16), a light guide pillar (17), a light transmission film (18) and a battery assembly (19), the main control board (16) is fixed to the upper casing (14), the light guide pillar (17) and the light transmission film (18) are fixed to the front side wall of the upper casing (14), the light transmission film (18) covers the outside of the light guide pillar (17), the upper casing (14) is in clamping fit with the lower cover (15), the main control board (16) is located between the upper casing (14) and the lower cover (15) and is in clamping fit with both the upper casing (14) and the lower cover (15), the main control board (16) is electrically connected with the light guide pillar (17), the side walls on the same side of the upper casing (14) and the lower cover (15) are jointly provided with a guide groove, the battery assembly (19) is in electrical fit with the upper casing (14) and the lower cover (15), the battery assembly (19) is located in wireless transmission module (16).

4. A non-invasive displacement monitoring device according to claim 2, wherein the vehicle frame (6) is provided with a charging module (9) and a data transmission interface (10), the data collection box (2) is electrically connected with the charging module (9) and the data transmission interface (10) through the lead wires (3), the charging module (9) is electrically connected with the power strip (13), the data transmission interface (10) is electrically connected with the host computer (7), the charging module (9) is used for inputting data to the data collection box (2) through a power supply, and the data transmission interface (10) is used for transmitting data into the host computer (7).

5. The non-invasive displacement monitoring device according to claim 3, wherein the battery assembly (19) comprises a battery box (20) and a battery cover (25), the battery pack (21) is inserted into the battery box (20), two conductive posts (26) are embedded in the side wall of one side of the battery box (20), the two conductive posts (26) are respectively electrically connected with the positive electrode and the negative electrode of the battery pack (21), and the battery cover (25) is clamped with the upper end of the battery box (20) and closes the upper end opening of the battery box (20).

6. A non-invasive cardiac displacement monitoring device according to claim 5, wherein the battery cover (25) is clamped with a sealing plate (22) at the bottom, the sealing plate (22) is clamped with a battery box (20), a sliding lock (23) is further arranged between the battery cover (25) and the sealing plate (22), a spring (24) is sleeved on one end of the sliding lock (23), and one end of the spring (24) away from the sliding lock (23) is tightly abutted against the inner wall of the battery cover (25).

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